System and method for distribution of targeted content between mobile communication devices

ABSTRACT

Disclosed are a method and system for distribution of targeted advertising between mobile communication devices. An endorsement program is set up based on a profile of an advertiser having at least one advertising media. A qualified subscriber is identified for the advertiser based on a profile of a subscriber. One or more advertisers and endorsement programs for the qualified subscriber are selected. In addition, when a communication transmission is received from a source communication device, at least one advertising media is associated with the communication transmission and the communication transmission is transmitted from a source communication device to a destination communication device.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. patent application Ser. No. 14/573,634, filed on Dec. 17, 2014, now U.S. Pat. No. 10,755,313, granted on Aug. 25, 2020, which is a continuation-in-part of U.S. patent application Ser. No. 14/291,977, filed on May 30, 2014, now U.S. Pat. No. 10,354,280, granted on Jul. 16, 2019, which is a continuation-in-part application of U.S. patent application Ser. No. 13/908,825, filed on Jun. 3, 2013 [now abandoned], which is a continuation application of U.S. patent application Ser. No. 13/423,048, filed on Mar. 16, 2012, now U.S. Pat. No. 8,457,670, granted on Jun. 4, 2013, which is a continuation of U.S. patent application Ser. No. 12/592,019, filed on Nov. 18, 2009, now U.S. Pat. No. 8,155,679, granted on Apr. 10, 2012, which is a continuation-in-part of U.S. patent application Ser. No. 11/318,144 filed on Dec. 23, 2005, now U.S. Pat. No. 7,664,516, granted on Feb. 16, 2010, which claims priority to U.S. Provisional Patent Application No. 60/639,267 filed on Dec. 27, 2004. Each patent application identified above is incorporated here by reference in its entirety to provide continuity of disclosure.

BACKGROUND OF THE INVENTION

As mobile technologies evolve into highly sophisticated two-way communication systems including smart phones, instant messaging devices, and personal digital assistants (PDA), the adoption and usage of such technologies continue to increase at a rapid rate. Advertisers are highly motivated to identify new methods of creating brand awareness to users. One of these methods is known as advertising impressions. Leveraging mobile technologies as described above, advertising impressions provide brand awareness by directly displaying company approved content, such as advertisements.

In addition to advertisers, users may utilize these technologies to select specific advertisers who may reach them. For example, technologies like personal digital video recorders allow users to skip undesirable advertisements. In addition, technologies, such as a subscription of satellite radio, allow users to listen to music without the disruption of commercials.

With the declining ability to offer advertisements through traditional broadcast advertising medium, such as public radio and television, a need exists for a method that offers more frequent and effective direct advertising to peer-to-peer users.

BRIEF DESCRIPTION OF THE DRAWINGS

Aspects of the present disclosure are best understood from the following detailed description when read with the accompanying figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.

FIG. 1 is a diagram of exemplary components for providing advertising between peer-to-peer communication devices.

FIG. 2 is a flowchart of an embodiment of an advertiser setup process.

FIG. 3 is a flowchart of an embodiment of a subscriber setup process.

FIG. 4 is a flowchart of an embodiment of a communication process.

FIG. 5 is a flowchart of an embodiment of a subscription maintenance process.

FIG. 6 is a diagram showing communication between the subscriber, intermediary, and the endorsement companies.

FIG. 7a describes the interactions between the subscriber, intermediary and advertiser nodes during the enrollment process.

FIG. 7b describes a communication and the recording of historical data.

FIG. 7c describes the execution of a program with the subscriber.

FIG. 8 describes interactions between the subscriber, intermediary and advertiser nodes during the subscriber de-enrollment process.

FIG. 9 describes the creation of a unique identifier for each endorsement sent by the subscriber to a contact.

FIG. 10 is a schematic diagram of the computing configuration and topology.

FIG. 11 is a configuration report of the database server used for Test A and Test B.

FIG. 12 shows an exemplary email sent to recipients during Test A.

FIG. 13 shows the measured processor utilization during the first iteration of Test A.

FIG. 14 shows the measured memory utilization during the first iteration of Test A.

FIG. 15 shows the measured bandwidth utilization during the first iteration of Test A.

FIG. 16 shows the start time for the first iteration of Test A.

FIG. 17 shows the end time for the first iteration of Test A.

FIG. 18 shows the measured processor utilization during the second iteration of Test A.

FIG. 19 shows the measured memory utilization during the second iteration of Test A.

FIG. 20 shows the measured bandwidth utilization during the second iteration of Test A.

FIG. 21 shows the start time for the second iteration of Test A.

FIG. 22 shows the end time for the second iteration of Test A.

FIG. 23 shows the measured processor utilization during the third iteration of Test A.

FIG. 24 shows the measured memory utilization during the third iteration of Test A.

FIG. 25 shows the measured bandwidth utilization during the third iteration of Test A.

FIG. 26 shows the start time for the third iteration of Test A.

FIG. 27 shows the end time for the third iteration of Test A.

FIG. 28 depicts a screenshot of a thumbnail image of a campaign used during Test B.

FIG. 29 shows the measured processor utilization during the first campaign of Test B.

FIG. 30 shows the measured memory utilization during the first campaign of Test B.

FIG. 31 shows the measured bandwidth utilization during the first campaign of Test B.

FIG. 32 shows the start time for the first campaign of Test B.

FIG. 33 shows the end time for the first campaign of Test B.

FIG. 34 shows the measured processor utilization during the second campaign of Test B.

FIG. 35 shows the measured memory utilization during the second campaign of Test B.

FIG. 36 shows the measured bandwidth utilization during the second campaign of Test B.

FIG. 37 shows the start time for the second campaign of Test B.

FIG. 38 shows the end time for the second campaign of Test B.

FIG. 39 shows the measured processor utilization during the third campaign of Test B.

FIG. 40 shows the measured memory utilization during the third campaign of Test B.

FIG. 41 shows the measured bandwidth utilization during the third campaign of Test B.

FIG. 42 shows the start time for the third campaign of Test B.

FIG. 43 shows the end time for the third campaign of Test B.

FIGS. 44a-d is the HTML code for the email sent during Test A.

FIG. 45 is the source code used to select a campaign profile during Test B.

FIGS. 46a-b is the implementation source code used during Test B.

FIGS. 47a-j is the implementation source code used during Test A.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood that the following disclosure provides many different embodiments, or examples, for implementing different features of the disclosure. Specific examples of components and arrangements are described below to simplify the present disclosure. These are, of course, merely examples and are not intended to be limiting. In addition, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

Aspects of the present disclosure provide effective transmissions of advertisements preceding and following transmissions of peer-to-peer communications, which occur directly between peer-to-peer communication devices. Examples of peer-to-peer communication devices include cellular phones, personal digital assistants (PDA), personal computers, instant messaging devices, and audio devices.

FIG. 1 is a diagram of exemplary components for providing direct advertising between peer-to-peer communication devices. A communication source, such as subscriber 1, subscribes to endorsement program 13 of intermediary 9. In an illustrative embodiment, endorsement program 13 of the intermediary 9 is directed in whole or in part by advertisers 10. The endorsement program 13 may be developed using an object-oriented programming language, such as Java™ or C++, C#, or other programming languages.

When a communication transmission (a cellular phone call, a video conferencing session, an instant message, text message (SMS, MMS or other), a personal computer communication, or a voice communication) is initiated by the subscriber 1 to a communication destination 8, an advertisement preceding and/or following the communication is transmitted to a destination communications device 7 used by communication destination 8. The subscriber 1 may utilize a source communication device 2, such as a cellular phone, a personal computer, a personal digital assistant, or an instant messaging device, to initiate the communication. Source communication device 2 may be coupled to a network 6 and may communicate with destination communication device 7 via the network 6 using a communications protocol. Examples of network 6 may be the Internet, a private network, a cellular phone network, or other service provider networks. Examples of the communication protocol include Transmission Control Protocol/Internet Protocol (TCP/IP), Global System for Mobile Communications (GSM), Code Division Multiple Access (CDMA), and Wireless Application Protocol (WAP).

Operating systems running on communication devices 2 and 7 coordinate and provide control of various components. Each operating system may be a commercially available operating system such as Microsoft® Windows® Mobile (Microsoft and Windows are trademarks of Microsoft Corporation, Redmond, Wash.). An object-oriented software system, such as the Java™ software system may run in conjunction with the operating system and provide calls to the operating system from Java™ programs or applications executing on communication devices 2 and 7. (Java is a product available from Sun Microsystems, Inc, of Santa Clara, Calif.) It is understood that the present disclosure may be used with other operating systems and applications written using other programming languages.

When the communication transmission is received by destination communication device 7, the advertisement may be displayed, played, or confirmed. The source of the advertisement may be announced to the recipient as being endorsed by the advertisers 10, an independent entity, an Internet service provider, a telecommunication service provider, or other types of communication providers. It is understood that FIG. 1 is intended as an example, and not as an architectural limitation for different embodiments of the present disclosure.

FIG. 2 is a flowchart of an embodiment of an advertiser setup process. Advertisers 10 may create and manage their own endorsement programs or choose to participate in an intermediary's separately managed endorsement program 13. An endorsement program may include a protocol for choosing and receiving a product or service, scheduling pick-up or delivery of a product or a service, or scheduling a review or inspection of a product or service. An endorsement program may also include any grouping of products or services or the election of receiving delivery of a product or service. Further, an endorsement program may include delivery of multiple products or services, different products or services or a different quality of products or services, based on participation in the endorsement program by one or more subscribers or recipients. Such an endorsement program can further include the delivery of additional or supplementary products, or services based on the choices made by the subscriber or recipient. In the event of the advertisers choosing an intermediary's endorsement program 13, advertisers 10 are required to complete a setup process, receive approval of their profile by the intermediary from a technical and procedural context, and upload their desired ads to be used in the intermediary's endorsement program 13 before advertisements may be offered.

In step 20, advertisers 10 connect to or browse the intermediary's website 11. The intermediary's website 11 may reside in a server 12 managed by the intermediary 9. In step 22, advertisers 10 complete an advertiser profile on the intermediary's website 11 identifying the advertisers' criteria. In step 24, advertisers 10 setup a subscriber profile on the intermediary's website 11 identifying necessary demographic criteria of a desirable subscriber 1.

In step 26, advertisers 10 set up an endorsement program. Endorsement program 13 can include promotions which enable advertisers 10 to select or “endorse” desirable subscribers in order to facilitate delivery of advertisements and advertising content, selection and delivery of products or services, arrange for delivery of products or services, or change the frequency or speed of a delivery of products or services. Other functions such as storage, product location, product and service evaluations and comparisons between products and services, as well as advertising for similar products and services can also be facilitated by information provided in the endorsement program. The advertisers 10 may provide other choices to subscriber 1, related to their products and/or services and elections to receive products and/or services without departing the spirit and scope of the present disclosure. The selection of subscribers may be based on a matching of the subscribers' criteria against the advertisers' criteria.

In addition, endorsement program 13 enables advertisers 10 to identify what products or services the subscriber receives in accordance with certain performance criteria. An example of performance criteria includes the number of communication transmissions the subscriber has made and the length of the transmissions. Furthermore, the identification process may be standardized based upon other categorical groupings. An example of categorical groupings includes allowing the subscriber to be endorsed by a different advertiser for each communication event based on an election to receive products or services, a type of product or service or a target schedule for product or service delivery.

In step 28, advertisers 10 upload their advertisements, which may be in a form of text, audio, video, static graphic, or other advertising media, to the intermediary's website 11 to be later associated with one or more subscriber's communications. Advertisers 10 also have the ability to identify when and how to apply each advertisement media type based upon a set of rules or logic defined by either the advertisers 10 themselves or the intermediary 9.

In step 30, the intermediary 9 confirms with advertisers 10 that the endorsement program is ready for use and that the setup is complete. Advertisers 10 may then elect, through a secure login process, to execute the endorsement program themselves in order to test their advertisements and adjust the advertisements as necessary. Otherwise, in step 32, advertisers 10 may activate one or more advertisements for selection by the subscriber 1. Thus, the process is complete.

FIG. 3 is a flowchart of an embodiment of a subscriber setup process. To become a subscriber, in step 34, a source communication device 2 owner or subscriber 1 must first connect to the intermediary website 11. In step 36, subscriber 1 sets up a subscriber profile and qualifies for the endorsement program.

Alternatively, the subscriber 1 may be automatically enrolled in endorsement program 13 as a result of a relationship with a service provider, such as a cell phone company contract, an existing service provided by an Internet service provider or by other communication service providers, or endorsers such as a product retailer who distributes branded communications devices that are limited to endorsing only their brand through approved subscribers. The subscriber profile includes information regarding the subscriber 1, for example, a name, an address, a device type, a serial number of the device, a phone number of the device, an IP Address of the device, basic demographic information of the subscriber 1, and a carrier calling program. Other characteristics of the service provider's program, such as available minutes and the subscriber's usage history may also be collected.

Once the subscriber's profile is set up, in step 38, the intermediary 9 analyzes the profile data and identifies advertisers 10 whose criteria match the subscriber's criteria. For example, advertiser A offers static graphic media and video media and advertiser B offers only audio media. Based on the media type offered, the intermediary 9 qualifies those subscribers whose communication devices have the capability to accept static graphics, video, and/or audio. The intermediary 9 may also require the subscriber 1 to qualify for an endorsement program over a trial period of time in order to quantify and qualify the calling habits of subscriber 1. For example, the intermediary 9 may examine the usage history of subscribers and qualify only those subscribers who are communicating with others most frequently.

In step 40, a determination is then made by the intermediary 9 as to whether the subscriber qualifies for the endorsement program. In step 42, if the subscriber 1 does not qualify, the subscriber 1 is notified that the setup process may not continue, and the process terminates. Alternatively, subscriber 1 may be redirected to another endorsement program or given information on how to qualify in the future.

In step 44, if subscriber 1 qualifies, intermediary 9 presents all acceptable advertisers 10 and endorsement programs available, including the criteria required to qualify for each endorsement program to subscriber 1. In step 46, subscriber 1 or intermediary 9 may select one or more advertisers 10 and/or endorsement programs containing multiple advertisers or advertisements for endorsement. Endorsement program 13 may include other random or targeted advertisements that the subscriber fails to select.

In step 47, a determination is made by intermediary 9 as to whether subscriber 1 has the capability to accept the advertisements for endorsement. In step 49, if the subscriber has the capability to accept the advertisements, the advertisements are downloaded to the subscriber 1. In step 48, if the subscriber 1 does not have the capability to accept the advertisements, an intermediary's endorsement manger software 14 is downloaded to the subscriber's source communication device 2 followed by the advertiser's ads. The endorsement manager software 14 manages advertisements, formats communication transmissions with the advertisements, and records advertising impression history of the advertisement transmissions periodically. In step 50, once the endorsement manger software 14 and advertiser's advertisements are downloaded, the endorsement manger software 14 communicates securely with the intermediary's host system and activates itself for use.

FIG. 4 is a flowchart of an embodiment of a communication process. The communication process begins, in step 52, when a communication transmission is initiated by a subscriber 1. A communication transmission may include a cellular phone call, an instant message, a page, or a video conferencing session, and may be initiated using any source communication device 2. In step 54, the endorsement manger software 14 formats the transmission by inserting the appropriate advertiser's advertisement preceding and/or following the transmission. During the communication session, the endorsement manager software 14 records the impression status based on whether the advertisement was displayed, played, or confirmed on the destination communication device 7.

In step 58, once the transmission is formatted, the endorsement manager software 14 sends the communication transmission to the communication destination 8. In step 64, when the communication transmission reaches the destination communication device 7, the advertisement is displayed, played, or confirmed in the destination communication device 7. In step 66, at the end of the communication session, the recipient may click on the advertisement to link, via the Internet, to the advertiser's or another designated website for additional information or further action. The link may direct the recipient to a portal that facilitates acquisition of products and services and/or the delivery or delivery scheduling of products or services. In addition, advertisers 10 may transmit their own messages to the recipient any time during or after the communication process.

Optionally, in step 60, when the communication transmission is initially received by the destination communication device 7, a determination is made by a recipient of the destination communication device 7 as to whether to accept or deny the transmission. In step 62, if a transmission is denied, the transmission is selectively ignored, and is stored in a voice mail or similar system for later retrieval. In step 64, if the transmission is accepted or is retrieved from voice mail or other storage system, the advertisement is displayed, played, or confirmed in the destination communication device 7. The advertisement may be played, displayed or confirmed followed by, at the same time, or throughout the communication session. In step 66, at the end of the communication session, the recipient may click on the advertisement to link, via the Internet, to the advertiser's or another designated website for additional information. The process then terminates.

FIG. 5 is a flowchart of an embodiment of a subscription maintenance process. Subscription maintenance includes collecting regular advertising impression data from the endorsement manager software of the subscribers, periodic processing of the impression data against endorsement programs to facilitate acquisition, distribution and delivery scheduling of products or services, or changes to the subscriber's profiles, or endorsement program eligibility.

The process begins, in step 67, when a communication transmission is initiated by the subscriber 1. In step 68, the endorsement manager software 14 collects historical data from the subscriber, including successes and failures of advertising impression events. Examples of advertising impression events include the number of advertising impressions, the number of advertising media types that have reached and been accepted by the destination communication device, the number of advertising impressions for a certain party, and the like. In step 70, the endorsement manager software 14 transmits this historical data to the intermediary's data warehouse for further processing. In step 72, the endorsement manager software automatically validates and updates current versions of advertiser's advertisements, and the endorsement manager software 14 updates itself, if necessary. The intermediary 9 may also periodically update the advertisements as the endorsement manager software 14 is busy communicating with the intermediary's data warehouse to “check in”.

In step 74, upon receipt of the historical data, the intermediary website 11 processes the received historical data and compares the data against the endorsement programs for which they have qualified in step 40 in order to determine which products or services will be acquired and/or delivered, in what amounts, to which recipients and on what schedules. In step 76, if the intermediary 9 detects that the terms of an endorsement program are likely to change, the intermediary 9 sends a message to the subscriber 1 informing the subscriber 1 of a possible change or a need to update the subscriber profile. In step 78, the intermediary 9 generates reports to advertisers, service providers, and subscribers for review via the intermediary's website 11. Based on these reports, advertisers and subscribers may re-adjust their profiles.

The system and method described above enables advertisers 10 to reach targeted audiences via mobile communications devices. The recipient of a communication transmission accepts the communication session initiated by a source communication device 2, because the session is identified as being initiated by a trusted or known entity. Upon acceptance, the advertising media is played or displayed to the recipient. Additional products or services may be provided to subscribers to encourage participation in the endorsement programs.

Other scenarios include communication sessions in which the subscriber 1 is a recipient of the communication session initiated by a non-subscriber. In this case, the endorsement manager software 14 in the destination communication device 7 may insert the advertising media into the communication session prior to enabling the communication between the subscriber 1 and the non-subscriber. The advertising media is played or displayed to the subscriber 1, who is designated to receive the products or services according to the endorsement program based on this communication session.

FIG. 6 is a diagram showing communication between the subscriber, intermediary, and the advertisers. The set of subscribers 600, 610 and 620 possess source devices 602, 612 and 622. Subscribers 600, 610 and 620 communicate in a similar manner and will be described using subscriber 600 as an example.

Subscriber 600 creates application 604. Application 604 consists of a request for endorsement and a choice of products or services for delivery 608, as well as subscriber specific data 606. Subscriber specific data 606 is demographic data that relates to the subscriber's education, employment, interests, hobbies, affiliations or other data used to determine a target market for a product or service.

An advertiser selected by the subscriber may provide an endorsement or endorsement tag (i.e. “advertiser recommends subscriber”). Alternatively, the subscriber may offer to endorse the company (i.e. “subscriber recommends advertiser”). The endorsement may include an embedded company logo, color or link to an advertisement of a particular product or service. The advertisement that the link points to is controlled by the advertiser and may be redirected by the intermediary. In the preferred embodiment, the intermediary serves as the hosting site for product or advertising data. In other embodiments, the intermediary and the hosting site may be located at different machines

Subscriber 600 communicates with intermediary 640 through source device 602, network 650 and the intermediary's server 642. Subscriber 600 communicates with any of the set of advertisers 660 through source device 602, network 650 and set of servers 662.

Intermediary 640 communicates with network 650 through intermediary's server 642. Additionally, list of advertisers 644, set of subscriber applications 647 and endorsement manager software 648 for subscriber's devices reside on intermediary's server 642.

List of advertisers 644 includes endorsement programs 645 corresponding to specific advertisers. The list of advertisers 644 includes the nature of the products or services and an outline of the acquisitions or deliveries that may be provided. Endorsement opportunities 645 include a set of desired demographic data 646. Desired demographics 646 relate to a target market that an advertiser is trying to reach with its ad campaign and endorsement programs.

Set of subscriber applications 647 are applications 604, 614, 624 that have been submitted to the intermediary via network 650 or otherwise entered into the intermediary's server 642.

Endorsement manager software 648 is downloaded to source device 602, 612, 622 via network 650. As described earlier, endorsement manager software 648 allows subscribers 600, 610, 612 to accept and forward endorsements and advertisements.

Set of advertisers 660 communicates with network 650 through set of servers 662. Servers 662 contain set of advertisements 664. Set of endorsement programs 666 are related to individual advertisements from the set of advertisements 664. The endorsement programs 666 contain a set of desired audience demographic data 668 which relate to a target market selected by an advertiser.

FIG. 7a describes the bi-directional endorsement process between the subscriber and the advertiser via the intermediary during the enrollment process. Subscriber 600, intermediary 640 and advertiser 660 represent “nodes” or “tiers” in a computer network. Each node or tier may represent a communication device and the appropriate computer server and computer network connections to allow communication and passing data between subscriber 600, intermediary 640 and advertiser 660. The nodes may also represent groups of machines in a network confirmation. The nodes do not reflect (nor require) a specific carrier or service provider for the source device.

At step 700, subscriber 600 contacts intermediary 640 through network 650 using source devices 602 and makes a subscription request including a request for endorsement. At this step, subscriber 600 selects one or more potential endorsers from list of advertisers 644. Subscriber 600 submits application 604, including the selected advertisers and subscriber demographic data, to intermediary 640. At step 701, advertiser 660 contacts intermediary 640. Advertiser 660 submits one or more sets of desired demographic criteria to intermediary 640.

At step 702, intermediary 640 correlates the subscriber data with the set of demographic data criteria of the advertiser. A correlation value is assigned by intermediary 640.

In the preferred embodiment, the correlation value is calculated as a match value or weighted percentage between the demographic criteria 646 and the subscriber demographic data.

Other correlation routines can be used to provide additional metrics to the subscriber and the advertiser related to the “match” of the subscriber demographic data with the advertiser criteria. For example, a multipoint questionnaire is provided to the subscriber including various categories during the subscription process. Questions include multiple choice questions. Answers to the multiple choice questions and each of the categories are assigned a weight. The combined weight is provided to the advertiser and to the subscriber as a correlation value.

At step 702, advertiser 660 receives the subscriber specific data from intermediary 640. Advertiser 660 then correlates subscriber specific data 606 with desired audience demographic data 668 to derive a correlation value.

At step 704, a list of potential subscribers that meet a desired correlation value for endorsement are forwarded to advertiser 660.

At step 706, potential subscribers who score lower than the required correlation value are recommended for rejection. Intermediary 640 notifies subscriber 600 of a rejection at step 707. If the subscriber is rejected, the rejection is recorded by the intermediary and the process stops.

At step 708, the advertiser decides whether to endorse a particular subscriber, based on the results of the correlation. The advertiser determines the endorsement program details. For example, subscriber 600 that achieves a high correlation value may receive different products or services than the subscriber who achieves a low correlation value.

If a sufficient correlation value is achieved or the subscriber provides an endorsement, the subscriber is deemed a “qualified” subscriber. At step 710, the advertiser notifies intermediary 640 of the endorsement program for which the subscriber has been qualified. Intermediary 640 then notifies subscriber 600, at step 712.

At step 714, subscriber 600 reviews the endorsement programs. At step 716, subscriber 600 chooses at least one endorsement program and an advertiser for endorsement and notifies intermediary 640. At this point, bi-lateral endorsement is complete.

At step 718, intermediary 640 interrogates source device 602 regarding its ability to perform the requirements of the endorsement manager software. For example, source device 602 may not be capable of sending an endorsement with an embedded link or may not be capable of handling large graphics files.

At step 720, depending on device capabilities, intermediary 640 sends a compressed file containing the endorsement manager software and the endorsement program selected by subscriber 600 to source device 602. In the preferred embodiment, the endorsement manager software manages the endorsement program and history related to the endorsement. The endorsement manager software is sent, along with a set of links to various advertisements, endorsement tags and graphics files. The endorsement manager software is then decompressed and installed on the source device.

At step 722, the advertiser is notified of the endorsement program or programs selected by subscriber 600. The selected endorsement programs are implemented by the advertiser in step 724.

The bi-directional selection process allows the subscriber to select advertisers that are appealing. The advertiser then determines if the subscriber is qualified based on a correlation between the subscriber's demographics and those desired by the advertiser. The subscriber's contacts presumably share some, if not all, of the subscriber's demographics and interests. Therefore, the contacts provide a select market and value to the advertiser, while requiring only a single demographic comparison. This allows an advertiser to focus its endorsements on favorable target markets without having to qualify each possible customer or examine demographics of a large number of potentially bad prospects.

FIG. 7b describes communication and recording of historical data. At step 790, subscriber 600 initiates a communication with contact 760 in possession of a destination communication device. At steps 792 and 794, the endorsement manager software inserts and sends an endorsement and embedded link in the communication. The destination device accepts the communication and embedded link and sends a response to the source device in steps 796 and 798. The source device records the historical data in step 797.

FIG. 7c describes the data flow required for implementation of the endorsement program. At step 750, the intermediary receives history data from the subscriber 600 reflecting a communication with contact 760, such as a phone can where an imbedded link has been sent in an endorsement message. At step 762, contact 760 follows the link embedded in the endorsement to the advertisement data hosted by intermediary 640. Intermediary 640 monitors historical data including the number of endorsements sent by subscriber 600 and the number of recipients contacted by subscriber 600 that use the embedded link to view the advertisement from the set of advertisements 664. Individual contacts are identified by a unique identifier embedded in each endorsement sent by subscriber 600 to contact 760. At step 766, the unique identifier is decoded by the intermediary site 640, allowing identification of the contact 760 responding to the endorsement. At step 751, the intermediary analyzes the endorsement program and analyzes the subscriber history data and contact interaction history.

The endorsement and the embedded link may be altered in response to various stimuli. For example, a random function may be provided in the software to change the endorsement and/or embedded link resulting in random changes. In another example, the endorsement and/or embedded link may be changed to reflect a different product of the advertiser at different times of day. Additionally, when the embedded link is activated additional information may be sent from the destination device, such that the geographical location of the destination device is known. Intermediary site 640 may redirect the embedded link to a new advertisement based on geographical, time, data or previous responses by the destination device. Intermediary site 640 determines the geographical location of the device by determining which cellular tower is carrying the response from the destination device or by information supplied by the destination device, such as GPS coordinates. The endorsement and embedded link can also be configured to respond to specialized applications or “apps” resident on the source device to reflect changing conditions dictated by the app. For example, an application maybe capable of reflecting ringtone changes and/or music preference changes. In these applications listening habits and cell phone configurations for various lighting displays can supply information to trigger predetermined variations in the endorsement or embedded link.

For example, if the embedded link were to a national restaurant chain, intermediary site 640 may redirect it to an advertisement for the nearest restaurant. Intermediary site 640 may contain the hours of operation of the restaurants and direct the link to an advertisement for the nearest open restaurant. If no restaurants are open within a predetermined range, intermediary site 640 may select an alternative advertisement. Intermediary site 640 may also store data regarding previous interaction from the destination device and redirect the link accordingly. For example, an endorsement program may be limited to one per device, such that intermediary site 640 redirects the destination device to a different link if an offer has been previously accepted. Alternately, a source device may receive additional products or products of better quality for frequently following the link embedded within an endorsement.

Referring briefly to FIG. 9, in an alternate embodiment, historical data regarding interaction of contact 760 with the embedded link may be stored on the source device as previously described. Alternatively, the endorsement sent to the contact from the source device contains a hash of three separate codes. Endorsement code 900 identifies the endorsement sent to the contact. Source code 910 identifies the source device that sent the endorsement. Contact code 920 identifies the contact that received the message. The endorsement manager software residing on the source device creates a unique identifier 930 for each endorsement sent and includes the unique identifier 930 in the link embedded in the endorsement. The unique identifier 930 is created by combining several separate codes together in any one of many encryption routines (known in the art as “hashing”) to form a code that is unique for each endorsement sent by a subscriber. Source code 910 and contact code 920 may be created based on device serial number, phone number or other numbers unique to the device. Other codes, including the date code 922 and geographic location 924 of the source device may be combined as well to create unique identifier 930. Endorsement code 900 is included in the endorsement when it is downloaded by the subscriber.

In other embodiments, the identity of the contacts, the duration of the message and communication, the scheduling of advertisements to view and the length of time that the contacts browser is focused on the advertisement are recorded. Additional information collected can include links navigated to, before and after, viewing the advertisement can be recorded. In certain cases, identification of contacts recognized by the recipient can be logged. Identification of music files, licenses and picture files may be collected. Call log information may be collected. Data reflecting prior approval as a qualified subscriber, and use of the system by the recipient may also be collected. Data reflecting network information such as packet count and packet size may be collected. Data reflecting location information via a GPS transponder may be collected. The analysis may include grouping data with other similar data from other subscribers to develop product delivery trends, demographic profiles and transaction history information. Analysis of customer location and dwell times at various websites and “brick and mortar” stores may be analyzed at step 751.

Continuing with FIG. 7c , at step 726, a report, showing an analysis of the progress and status of the endorsement program, is sent to the advertiser by intermediary 640. At step 728, the advertiser may verify the report or modify the endorsement program. At step 729, advertiser 660 may request additional information and analysis from the intermediary. In-turn, the intermediary supplies additional reports via step 726. At step 730, the appropriate endorsement program is implemented. This may be a shipment of a product or delivery of a service to a subscriber 600, or allocation of other goods or services to subscriber 600. Of course, other means of implementing the endorsement program, such as electronic delivery of digital goods (e.g., .mp3 coded music files) or services may also be employed.

Returning to FIG. 6, in an additional alternative embodiment, a subscriber representative 630 may assume a proxy arrangement for subscribers 600, 610 and 620. In a proxy arrangement subscriber representative 630 acts on behalf of a group of subscribers that share similar demographic features. A proxy arrangement can be organized to facilitate use of the system by a group of subscribers by pooling and offering endorsement programs through all the subscribers source devices 602, 612, 622 that are included in the proxy. In this instance, an endorsement program may be changed to also include an endorsement by the subscriber representative.

In another embodiment, an advertiser offers better goods or services than those of another advertiser in exchange for preferred treatment. This preferred treatment includes more frequent insertion of one advertiser's advertisements or endorsement programs over any others, particular days or time of day for sending advertisements, particular geographic locations, and advertisements sent to particular contacts of the subscriber. For example, an advertiser may endorse subscribers who are fans of a particular sport immediately before, during or after a particular game. Also, an advertiser may endorse a subscriber who calls a contact that has responded to a message in the past. A contact who has responded in the past may be identified by a phone number, an IP address or similar information that is transferred when the contact responds to the endorsement.

FIG. 8 describes the de-enrollment process. At step 800, intermediary 640 monitors various aspects of subscriber 600 and source device 602. Among other things, intermediary 640 may monitor source device usage, device activation, responses from contacts and expiration of or changes to the current endorsement program. At step 802, intermediary 640 warns subscriber 600 of a status change that could result in a change to the endorsement program. Subscriber 600 responds to the warning at step 804. At step 806, the intermediary notifies advertiser 660 that subscriber 600 may no longer qualify for the current endorsement program.

At step 808, advertiser 660 determines if subscriber 600 is still a qualified subscriber. Alternatively, advertiser 660 may decide to allow subscriber 600 time to cure any deficiencies in qualified subscriber status while allowing subscriber 600 to remain on the endorsement program.

At step 810, advertiser 660 sends a deactivation notice to intermediary 640. At step 812, intermediary 640 then deactivates subscriber 600 and removes source device 602 from the endorsement program.

An embodiment of the present disclosure can take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment containing both hardware and software elements. For example, one of the previously described embodiments may be implemented in software, which includes but is not limited to firmware, resident software, microcode, etc. In addition, various steps of the above processes may be performed in another order, split into additional steps, or combined into a single step. Steps may also be removed and or added to any of the above processes.

Furthermore, the present disclosure can take the form of a computer program product accessible from a tangible computer-usable or computer-readable medium providing program code for use by or in connection with a computer or any instruction execution system. For the purposes of this description, a tangible computer-usable or computer-readable medium can be any apparatus that can contain, store, communicate, propagate, or transport the endorsement program for use by or in connection with the instruction execution system, apparatus, or device. The medium can be an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system (or apparatus or device), or a propagation medium. Examples of a computer-readable medium include a semiconductor or solid state memory, magnetic tape, a removable computer diskette, a random access memory (RAM), a read-only memory (ROM), a rigid magnetic disk and an optical disk. Current examples of optical disks include compact disk-read only memory (CD-ROM), compact disk-read/write (CD-R/W) and digital video disc (DVD).

Although embodiments of the present disclosure have been described in detail, those skilled in the art should understand that they may make various changes, substitutions and alterations herein without departing from the spirit and scope of the present disclosure. Accordingly, all such changes, substitutions and alterations are intended to be included within the scope of the present disclosure as defined in the following claims. In the claims, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents, but also equivalent structures.

Example 1

In the field of information technology, “efficiency” of a computer network is one important measure of computer function. Two measurements of computer efficiency often used are “algorithm efficiency” and “data efficiency.” Algorithm efficiency measures the amount of computer resources used and the time, effect and cost of the usage. Data efficiency measures the data storage, data access and data filtering required for a process to lead to a desired outcome. It is typical when measuring the function of a computer system, and its efficiency to measure processor utilization, memory utilization, bandwidth utilization and “time to completion” of the job.

Accordingly, the efficiency of two computer systems were tested when distributing targeted advertising, a prior art computer system (Test A) and a computer system which incorporates one embodiment of the invention (Test B). The network configuration for each test remained constant. The two tests, when compared, illustrate the differences in the processor utilization, memory utilization, bandwidth utilization and time to completion.

The prior art computer system incorporates digital advertising in the form of email “blasts” in which an advertiser sends an email advertisement to each recipient on a large mailing list. The goal of the digital advertising is to distribute advertising emails to people who want to receive them because these people, in theory, will be better potential customers. The process must be repeated for each different advertiser and for each different advertisement. The content in the email advertisement is the same for each recipient. The advertisement typically includes a graphics file related to the product or service that is advertised. These graphics files can be quite large.

Test A tested the performance of a computer system executing a prior art email blast type advertising campaign. Table 1 summarizes the results of Test A.

TABLE 1 Prior Art Test A Results Processor Memory Bandwidth Time to Utilization Utilization Utilization Completion (% of CPU) (Kbytes) (Bytes per second) (Seconds) 3.24 845,705 711,553 272

Test B tested the performance of the same computer system implementing an advertising campaign, targeting an advertising message to 27,671 potential recipients using the “bilateral endorsement” disclosed herein. In order to “mirror” the Test A protocol, one campaign (one advertisement) was run three times implementing all of the endorsers whose attributes matched the campaign criteria and averaged the results. Table 2 summarizes the results of Test B.

TABLE 2 Invention Test B Results Processor Memory Bandwidth Time to Utilization Utilization Utilization Completion (% of CPU) (Kbytes) (Bytes per second) (Seconds) 23.06 5,419 157,441 51

The results of Test B shows that a preferred embodiment of the disclosed method for distribution of targeted advertising improves the functioning of the computer network itself by reducing the number of advertising messages that need to be stored and sent in order to achieve the goal by targeting the advertising messages to qualified recipients or “endorsers.”

Advertising messages are targeted to the endorsers by “matching” an advertiser's criteria to an endorser's profile. Once the endorsers choose an advertising message, they use social networks such as Facebook to distribute the message to their “friends.”

Accordingly, a comparison of the results is shown in Table 3. The results show that by reducing the number of advertising messages required to accomplish the goal, the preferred embodiment of the disclosure reduces the memory utilization by over 15,000%, bandwidth utilization by over 350%, and time to completion to execute the advertising campaign by over 430% and so significantly improves the functioning of the computer network itself

TABLE 3 Metric % Improvement Processor Utilization −85.95% Memory Utilization 15,505.34% Bandwidth Utilization 351.95% Time to Completion 436.16%

Referring to FIGS. 10-47, the system performance testing protocol of both Test A and B is discussed.

The purpose of this system performance testing protocol is to create a structure for quantifying the significant performance improvement that the disclosed system and method brings to the world of marketing and advertising in contrast to the prior art and traditional blast marketing techniques. In the AB performance test, both test cases are designed to capture the performance impact on the primary computing resource, the processing/database server for the exact same system parameters.

FIG. 10 shows a diagram of the computer system configuration 1000 used for both Test A and Test B. Processing database server 1001 is connected to Ethernet 1010. SMTP and web server 1005 used for the tests is also connected to Ethernet 1010. Router 1007 is connected to Ethernet 1010. The router is connected to internet 1009. Workstation 1011 is also connected to the internet.

FIG. 11 shows a detailed specification and configuration report for the database server used for both Test A and Test B.

Both Test A and Test B were performed three times with performance metrics averaged for the three tests for purposes of comparison. Each test was performed on the same hardware using the same database, server and the same network configuration. The performance measuring tool used for all testing was Microsoft Windows Performance Monitor version 6.1.7601. The performance metrics measured and compared were the same for both Tests which are:

-   -   Processor Utilization     -   Memory Utilization     -   Bandwidth Utilization     -   Time to Completion

For purposes of these tests, the database server contains 27,671 unique

Endorser records with the following record attribute counts:

-   -   Postal Code—3,527     -   City—2,603     -   State—3,152     -   Gender—4,657     -   Age—27,544     -   Reach Count—12,045     -   Email Address—26,900     -   Phone Number—7,682     -   Connected to Facebook—12,157     -   Connected to Twitter—3,168     -   Connected to LinkedIn—625

There are a total of 4,916,444 Facebook friends connected to the Endorser population which would yield an average of 404 Facebook friends per Facebook connected Endorser.

There are a total of 11,357,899 Twitter followers connected to the Endorser population which would yield an average of 3,585 Twitter followers per Twitter connected Endorser.

There are a total of 197,274 LinkedIn contacts connected to the Endorser population that are connected to LinkedIn which would yield an average of 315 LinkedIn contacts per LinkedIn connected Endorser.

The total counts above for Facebook friends, Twitter followers and LinkedIn contacts which are associated with the Endorsers are actual counts which were harvested from the respective social networking sites and stored in the database.

The goal of Test A is to capture the performance impact of a traditional blast email campaign on a single processing/database server and on the network sending an email message to every Endorser for which the database has an email address (26,900 email addresses for 27,671 Endorsers). Email addresses are retrieved using a single server-based query from the database. Each email message including the payload is formatted and then each conformed email message is individually transmitted to a locally connected SMTP server. The size of each email message was 5,534 bytes which was a formatted HTML email message commonly sent in similar traditional email marketing campaigns.

FIG. 12 shows an exemplary email sent to 26,900 recipients (the entire Endorser community) during Test A. The test was performed three (3) times. Metrics for CPU utilization, Memory usage, and Bandwidth usage were recorded for each iteration as well as execution time which are all shown below and are detailed in FIGS. 13-27.

The HTML for the email is shown in FIGS. 44a-d and the source code for Test A is shown in FIGS. 47a-j . Note that the HTML that was sent in the emails does not contain linefeeds. The size of the HTML with linefeeds removed is 5,534 bytes.

It is important to note that HTML emails are distributed without graphic images whereby the images are retrieved from remote servers when the user opens the email message. Typical email marketing/advertising messages average 100 k when they are fully populated with their images. The SMTP mail server was configured to receive each message from the processing/database server but not to relay them to the actual recipients. The performance of the SMTP server was not captured as it was a peripheral process to the AB Test and therefore not relevant.

FIG. 13 depicts the measured processor utilization during the first iteration of Test A.

FIG. 14 depicts the measured memory utilization during the first iteration of Test A.

FIG. 15 depicts the measured bandwidth utilization during the first iteration of Test A.

FIGS. 16 and 17 show the start and stop times for the duration of the first iteration of Test A.

FIGS. 18-22 show the measured processor, memory, and bandwidth utilizations plus the start and stop times for the duration of the second iteration of Test A.

FIGS. 23-27 show the measured processor, memory, and bandwidth utilizations plus the start and stop times for the duration of the third iteration of Test A.

Table 4 below contains the measured results for each of the three iterations of Test A. The value for the Memory usage is calculated by subtracting the Average value from the Maximum value of the Available KBytes counter to remove the baseline memory usage (FIGS. 14, 19, and 24). All other values are the Average values for respective counters. Elapsed Time is calculated by subtracting End time in seconds from Start time in seconds.

TABLE 4 Test 1 Test 2 Test 3 Average Processor 3.29 3.25 3.17 3.24 (% CPU Utilization) Memory 905,018 889,964 742,133 845,705 (Kbytes) Bandwidth 726,853 719,209 688,597 711,553 (Bytes/sec) Time 270 271 274 272 (Seconds)

Test B is an implementation of the disclosed system and method for distribution of targeted advertising between mobile communication devices. The same performance parameters were measured during Test B, as were measured during Test A, on the exact same single processing/database server for presentation of a formatted campaign for a brand advertiser.

As shown in FIG. 28, for Test B, the initial payload is a “thumbnail” image, a short description of the brand campaign, and a link to the full screen interactive advertisement presented with a button enabled to initiate the processing of sharing. A web portal, which also offers companion client access via a mobile device application, performs the steps described below.

As a first step, an Endorser creates a profile in the system by supplying some basic credential information, demographic information and/or interest selections. They may also connect their profile to several methods of sharing such as Facebook, Twitter, LinkedIn, email and/or their mobile device (text messaging).

As a second step, each advertiser creates a brand profile in the system and creates one or more campaigns including the message content, pictures, links to other sites, and optionally coupon redemption characteristics. They then define the campaign profile of their target Endorser by selecting demographic and optionally interest attributes.

This campaign profile is assigned to a single campaign in the database. Endorsers who match with the profile attributes below will be presented this campaign. A sample campaign profile was selected with the following attributes using the source code shown in FIG. 45.

-   -   Male     -   Between the age of 35 and 54     -   Interested in Sports     -   Facebook reach of 400 or more

The Campaign Profile also describes the number of Endorsers of the entire Endorser population which match to the Campaign Profile (“Qualified Endorsers”) and the reach (number of Facebook friends or Twitter followers) of each Qualified Endorser. In the sample database, there are 104 Endorsers of the total Endorser population which match this campaign profile (Qualified Endorsers) with an aggregate Facebook Reach of 121,224. Facebook Reach is a count of all of the friends of all of the Qualified Endorsers which become target recipients for the campaign. The query to match and retrieve a result set of all of the Qualified Endorsers took 109 ms to execute.

For step three, upon successful authentication by an Endorser via the mobile app or web portal (the “Client” or “Endorsement Manager”), the database server performs a matching process whereby the Endorser's supplied demographic attributes and interest selections are compared to active brand campaigns in the system and the Endorser is presented with a list of only those brand campaigns for which the bi-lateral matching process has produced matched brand content, a Qualified Endorser. Matched campaigns are displayed as a list in the Endorsement Manager including a thumbnail, content description, a link to retrieve a full screen interactive advertisement and links to share the campaign with others.

Lastly, the Endorser makes a selection by clicking on a campaign for which to share. Serialized links are sent to the Endorser by the system which enables sharing of the selected advertisement.

For Test B, steps one and two are assumed complete and step three was implemented three separate times using the same Campaign Profile and the source code shown in FIGS. 46a-b . The implementation is designed to simulate a serialized load on the processing/database server as if all of the Qualified Endorsers accessed the system one after another (not all at once). Performing the Test B implementation according to this method closely mirrors the Test A implementation of processing all of the emails in one batch at one time. This Test B implementation is a worst case performance loading scenario as in reality some percentage of these Endorsers would access the system in parallel, which would produce additional performance efficiencies in the time to process.

Like with the blast email implementation and SMTP server in Test A, the test did not forward the shared content past the web server which is responsible for relaying the shared data from the processing/database server as a JSON package to Facebook for posting on the Endorser's wall. The test focused on the comparative performance impact on the processing/database server under both scenarios. There would be no further performance impact on the processing/database server in delivering the shared content to Facebook.

FIG. 29 depicts the measured processor utilization during the first campaign of Test B.

FIG. 30 depicts the measured memory utilization during the first campaign of Test B.

FIG. 31 depicts the measured bandwidth utilization during the first campaign of Test B.

FIGS. 32 and 33 show the start and stop times for the duration of the first campaign of Test B.

FIGS. 34-38 show the measured processor, memory, and bandwidth utilizations plus the start and stop times for the duration of the second campaign of Test B.

FIGS. 39-43 show the measured processor, memory, and bandwidth utilizations plus the start and stop times for the duration of the third campaign of Test B.

Table 5 contains the measured results for each of the three iterations of Test B. The value for the Memory usage is calculated by subtracting the Average value from the Maximum value of the Available KBytes counter to remove the baseline memory usage (FIGS. 30, 35, and 40). All other values are the Average values for respective counters. Elapsed Time is calculated by subtracting End time in seconds from Start time in seconds.

TABLE 5 Test 1 Test 2 Test 3 Average Processor 22.47 23.60 23.10 23.06 (% CPU Utilization) Memory 5,305 6,503 4,450 5,419 (Kbytes) Bandwidth 152,794 161,089 158,441 157,441 (Bytes/sec) Time 51 50 51 51 (Seconds) 

1. A method for improving the functioning of a computer system, the computer system including an intermediary server connected to a promotional content server, a subscriber machine and a destination machine, the method comprising the steps of: a. obtaining a first data set including a first attribute set; b. obtaining a second data set including a second attribute set; c. calculating an optimized result set from the first data set and the second data set; d. transmitting from the intermediary server to the subscriber machine a first record in the optimized result set; e. after transmitting the at least one record, receiving at the intermediary server an argument identifying the first record; f. after receiving the argument, transmitting from the intermediary server to the subscriber machine a content set that can be sent from the subscriber machine to the destination machine; g. the content set including an encrypted pointer identifying the first record and a storage location to at least one attribute of the first attribute set; and, h. whereby the functioning of the computer system is improved by reducing a time to completion and at least one of the group of a memory usage and a bandwidth usage of a routine resident on the computer system.
 2. The method of claim 1 further comprising the step of: sending the content set from the subscriber machine to the destination machine.
 3. The method of claim 1 further comprising the step of: providing one of the group of a product selection, a server selection, a delivery selection, a storage selection, a comparison selection and an evaluation selection in the first attribute set.
 4. The method of claim 1 further comprising the step of: receiving, at the intermediary server, confirmation that the destination machine has accessed the encrypted pointer.
 5. A computer system for providing access to content from a first data center to a source communication device, associated with a subscriber, and providing the access to the content from the source communication device to a destination communication device, associated with a recipient, the first data center, the source communication device and the destination communication device connected by a network, the computer system comprising: a. a server, programmed to act as an intermediary and to store and execute instructions that cause the computer system to perform operations for optimizing the operation of the computer system comprising: b. receiving at the server, a first data set that describes one or more attributes related to the one or more subscribers; c. receiving at the server, a second data set that describes one or more attributes for directing the content to the subscriber; d. calculating an optimized result set from the first data set and the second data set; e. after calculating an optimized result set, sending, from the server to the subscriber communication device, a first set of information, relating to the content, selected on the basis of the optimized result set, the first set of information including a component for inclusion in a communication to the recipient communication device; f. providing the content to the recipient communication device; and, g. whereby utilization of the network is optimized.
 6. The computer system of claim 5 wherein the operations further comprise: receiving, at the server, an indication that the recipient communication device has interacted with the communication in a defined manner; and, providing the content to the recipient communication device in response to receiving the indication.
 7. The computer system of claim 5 wherein the operations further comprise: allocating one of the group of a product and a service to the subscriber in exchange for communicating the component to the recipient communication device.
 8. The computer system of claim 7 wherein the step of allocating is conditioned on the recipient communication device interacting with the component in a defined manner.
 9. The computer system of claim 8 wherein the step of allocating includes delivery of a product related to the set of content.
 10. The computer system of claim 9 wherein a product delivery schedule is managed by the server.
 11. The computer system of claim 5 wherein the second data set includes a geographic location.
 12. The computer system of claim 5 wherein the component includes a link to the server.
 13. The computer system of claim 5 wherein the component includes a link to the first data source.
 14. The computer system of claim 5 wherein the communication includes a first set of information related to the content and the component is a link to a second set of information related to the content.
 15. The computer system of claim 5 wherein the operations further comprise: receiving, at the server, a selection, related to the content, from the subscriber communication device; and, in response to the selection, providing the first set of information to the subscriber communication device.
 16. The computer system of claim 15 wherein the operations further comprise: receiving, at the server, from the subscriber communication device, an identification of the recipient communication device that a subscriber has identified for sharing the first set of information; and, in response to receipt of the first set of information, making the first set of information available to the recipient communication device. 